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Title: Guideline for management of Paediatric Sepsis
Version: Version: 2
Supersedes: Version 1 Summary of amendments: Removal of 0.9% sodium chloride as bolus fluid—use of balanced crystalloids (Plasmalyte 148 or Hartmann’s solution) recommended Use of adrenaline as preferred first inotrope with peripheral use as an option after intraosseous or central line Clarifications on indications for use of blood products References updated
Application: For use by any hospital team caring for patients under 16 years age across the Paediatric Critical Care Network in the North West (England) & North Wales region.
Originated /Modified By: Designation:
Version 1: Kate Parkins, PICM consultant, North West (England) & North Wales Paediatric Transport Service (NWTS) Co-Authors: Christopher Walker, Clinical Nurse Specialist, NWTS Matthew Christopherson, Locum PICM Consultant, NWTS Mark Entwistle, Staff Grade Anaesthetist, Arrowe Park Hospital Version 2: Kate Parkins, PICM consultant, NWTS Co-Authors: Praveen Kurup, PCCM clinical Fellow, NWTS & PCC RMCH Nisha Jacob, Anaesthetic senior clinical fellow, NWTS & AHCH Lisa Pritchard, PICM consultant, NWTS & UHNM Amicia Davey, Band 6 Transport Nurse, NWTS Nicola Longden, Band 7 Clinical Nurse Specialist, NWTS
Ratified by: RMCH (Host Trust):
- Paediatric Medicines Management Committee (MMC)
- Paediatric Policies & Guidelines Committee
Date of Ratification: Paediatric Medicines Management Committee (MMC): 22.06.21
Paediatric Policies & Guidelines Committee: 23.06.21
Ratified by: AHFT:CDEG (Clinical Development & Evaluation Group)
Date of Ratification: AHCFT: 26.11.21
Issue / Circulation Date: 29.11.21
Circulated by: Clinical Lead, North West & North Wales Paediatric Critical Care Network
Clinical Lead, NWTS
Dissemination and Implementation: NWTS & Network circulation lists
Date placed on the Intranet:
Date placed on NWTS website: 26.11.21
Planned Review Date: November 2024
Responsibility of: Clinical lead North West & North Wales Paediatric Critical Care Network & NWTS guideline lead consultant
Minor Amendment (If applicable) Notified To:
Date notified:
EqIA Registration Number: 36/13
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1. Detail of Procedural Document. Paediatric Sepsis guideline is for use by clinical teams managing infants, children and young people under 16 years age in the North West (England) & North Wales region.
2. Equality Impact Assessment. EQIA registration Number (RMCH): 36/13 3. Consultation, Approval and Ratification Process
This guideline was developed with input from: • North West (England) and North Wales Paediatric Transport Service (NWTS) - medical &
nursing • Representatives from both Paediatric Intensive Care Units (Royal Manchester Children’s
Hospital and Alder Hey Children’s Hospital) - medical, nursing and paediatric intensive care pharmacists
• Representatives from the North West (England) and North Wales Paediatric Critical Care Network (PCCN) - medical, nursing and AHP (paediatrics, anaesthetics, and emergency medicine teams)
For ratification process see appendix 1.
4. Disclaimer These clinical guidelines represent the views of the North West (England) and North Wales Paediatric
Transport Service (NWTS) and the North West (England) and North Wales Paediatric Critical Care
Operational Delivery Network (PCCN). They have been produced after careful consideration of available
evidence in conjunction with clinical expertise and experience.
It is intended that trusts within the Network will adopt this guideline and educational resource after
review and ratification (including equality impact assessment) through their own clinical governance
structures.
The guidance does not override the individual responsibility of healthcare professionals to make
decisions appropriate to the circumstances of the individual patient.
Clinical advice is always available 24/7 from NWTS on a case by case basis via the referral line:
08000 84 83 82
Please feel free to contact NWTS (01925 853 550) regarding these documents if there are any queries.
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Paediatric Sepsis Guideline
EARLY RECOGNITION OF SEPSIS
Early recognition and initiation of treatment is vital and can prevent illness progression.
Any life-threatening compromise to the airway, breathing, circulation or level of consciousness must be identified early.
Take parental concerns seriously and assess repeatedly using PEWS tool.
If infection is suspected: any red flag, OR 2 amber flags are recognised as high & intermediate risk for sepsis respectively.
Amber Flags
Abnormal response to social cues/ not smiling/
wanting to play
Reduced activity/ very sleepy/ abnormal behaviour/
parental concern
Moderate tachypnoea/tachycardia (see table)
SpO2 < 92% in air OR nasal flaring
Capillary refill ≥ 3 seconds
Reduced urine output (<1mL/kg/hr)
Pale or flushed
Leg pain or cold extremities (feet or hands)
Immunocompromised
RISK FACTORS FOR SEVERE DISEASE
Neonates (i.e. ≤ 44 weeks post gestational age)
Underlying comorbidities
Cardiovascular or respiratory disease
Oncology diagnosis or bone marrow transplant
Immunodeficiency
Asplenia
Chronic steroid dependency
Complex urogenital anatomy or repair
Recent illness within last 6-8 weeks
Concurrent / recent chicken pox
Influenza A or B
Surgery
Chronic illness patients may be carriers of multi-resistant organisms
Those patients with indwelling catheters / lines / gastrostomy / tracheostomy i.e. breach of skin or long-term ventilated patients
Red Flags
Capillary lactate > 2mmol/L
Grunting/Apnoeic/Cyanosed/SpO2 < 90% in air
Weak, high pitched or continuous cry
V, P, or U on AVPU (Altered mental state)
Looks very ill
Temperature < 36 ̊C
Non-blanching rash or mottled/ashen/cyanotic
Not passed urine in last 6-12 hours (dry nappies)
Bradycardia < 60 / min
Severe tachypnoea/tachycardia (see chart below)
WCC less than 2 OR more than 30
Hypotension
If under 3 months, temperature > 38 ̊C
Resp Rate19 Normal Moderate Severe Heart Rate19 Normal Moderate Severe
37—44 weeks (neonate) 30-59 60-79 ≥ 80 Neonate 91-149 150-179 ≤ 70 or ≥ 180
<1yr 30-39 40-54 > 54 <1yr 110-149 150-159 <80 or >160
1-2 25-34 35-49 > 50 1-2 100-139 140-149 <80 or >150
3-4 25-29 30-39 > 40 3-4 95-129 130-139 <60 or >140
5-7 20-23 24-28 > 29 5-7 80-109 110-119 <60 or >120
8-11 15-21 22-24 > 25 8-11 60-104 105-114 <60 or >115
> 12 yr 15-21 22-24 > 25 > 12 yr 65-90 91-130 <55 or >130
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Paediatric Sepsis Guideline: Quick Reference Guide
0-15 mins
RECOGNISE SEPSIS/SEPTIC SHOCK—activate Sepsis 6
Give 100% oxygen
Call for senior help: review within 15 mins
Full continuous monitoring (SpO2, ECG, BP 3 min cycles)
URGENT IV/IO access & take bloods (glucose, FBC, coagulation, U&E’s, CRP, LFTs, group & save), culture
Blood gas including lactate
10 mL/kg fluid bolus quickly, push by hand &
re-assess if need 2nd 10 mL/kg bolus
IV broad spectrum antimicrobials as per local guidelines
If blood glucose < 3mmol/L: give 2 mL/kg 10% Glucose, recheck glucose & start maintenance
Start high dose aciclovir if suspicion of HSV e.g. coagulopathy deranged LFTs, hypoglycaemia, or contact history
15-30
mins
POOR RESPIRATORY EFFORT
Start bag mask ventilation (+/- oral airway)
Get urgent anaesthetic/ICU help
Get 2nd IV/IO access
Re-assess for shock: tachycardia, prolonged CRT, ↑Lactate, ↓BP
Shock: give further 10-20 mL/kg bolus over 5-10 min
Prepare inotrope: IO = central strength, IV = peripheral strength.
N.B. Crashcall = central strength; Peripheral strength = page 5.
Call NWTS early
08000 84 83 82
30-60
mins
ONGOING SHOCK +/- INADEQUATE BREATHING
Consultant Paediatrician/Anaesthetic review ASAP
Prepare to intubate/ventilate—NWTS intubation checklist/guideline
Optimise pre-intubation e.g. fluid bolus & inotrope prepared & running
Adrenaline (or noradrenaline) prepared & running (optimise dose)
Most experienced operator
Cuffed oral ET tube
Prepare resus drugs — risk of cardiac arrest
Ketamine/Rocuronium +/- Fentanyl induction N.B. AVOID Etomidate
Prepare: Diluted adrenaline (see page 5) & give 1-2 mL aliquots as needed for hypotension + 20 mL/kg fluid bolus
SHOCK NOT REVERSED
Repeat fluid bolus (10-20 mL/kg) up to 60 mL/kg if no hepatomegaly, crackles or gallop rhythm
Start adrenaline (or noradrenaline) at 0.2 microgram/kg/min via IO/IV
Start inotrope earlier if hepatomegaly, crackles or gallop rhythm noted
> 60 minutes
Discuss with NWTS
FURTHER MANAGEMENT
Blood gas: adequate ventilation & lactate trend
Urine catheter: strict input/output chart, aim urine output > 0.5-1 mL/kg/hr
Place intra-osseous for inotropes
Place arterial line & transduce
Central line (if local expertise)
AIMS
Ionised Ca2+ > 1.1 mmol/L
Hb > 70 g/L (if SpO2 > 92%)
Hb > 100 g/L if SpO2 < 92% or haemodynamically unstable
Platelets ≥ 50
Give Vitamin K if PT prolonged
Only give FFP if bleeding
SHOCK NOT REVERSED:
Add 2nd inotrope: noradrenaline (or adrenaline) + titrate dose
Add hydrocortisone 1 mg/kg if: > 1 inotrope or hypoglycaemia on admission
Discuss plan with NWTS
REFRACTORY SHOCK OR OXYGENATION / VENTILATION FAILURE?
DISCUSS WITH TEAM AT REGIONAL ECMO CENTRE (AHCH)
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Paediatric Sepsis Guideline
OTHER: Discuss all other options with NWTS
Consider dexamethasone (0.15 mg/kg MAX:10 mg/dose) if > 3 months & suspect meningitis
Consider 10% calcium gluconate bolus +/- infusion (see Crashcall) (if via PVL dilute by 5 times)
Consider adding inodilator (milrinone) for those with cardiac dysfunction
INOTROPES N.B.: Crashcall concentrations are for central administration only
DILUTE Adrenaline Take 0.1 mL/kg (10 micrograms/kg) from minijet syringe 1:10,000 adrenaline (using a 3-way tap). make this up to 10 ml with 0.9% sodium chloride (MAX: 1mg in 10ml i.e. neat). Use 0.5-2 ml bolus if ↓BP at induction of anaesthesia
CENTRAL (via IO or CVL) infusion Adrenaline / Noradrenaline: 0.3 mg/kg made up to 50 ml 5% glucose or 0.9% sodium chloride MAX concentration 16 mg/ 50 ml Rate: 0.05-1.5 microgram/kg/min via central venous or IO line Rate = 0.5-15 ml/hr via central or intra-osseous line Set up all inotropes with 3-way tap to allow for piggybacking (page 18)
Titrate dose to response, add NORADRENALINE (or ADRENALINE) as SECOND LINE. N.B. may need high dose of both Discuss with NWTS if patient remains hypotensive
PERIPHERAL infusion Adrenaline / Noradrenaline: 0.3 mg/kg in 500 ml 5% glucose or 0.9% sodium chloride Adrenaline Max = 16 mg in 500 ml Noradrenaline Max = 8 mg in 500 ml Rate: 0.05-1.5 microgram/kg/min via peripheral line for rate in ml/hr see appendix; NB only use PVL if IO not available
FLUIDS
Use balanced crystalloid 10-20 mL/kg fluid boluses i.e. Hartmann’s or Plasmalyte 148
Only use 0.9% sodium chloride if other fluids not available
Give 2 mL/kg 10% Glucose if blood
glucose < 3mmol/L
Re-check blood glucose & run glucose containing maintenance fluids as soon as possible
Call NWTS
EARLY
08000 84 83 82
INDUCTION DRUGS (BOLUS)
Ketamine 1-2 mg/kg (max 150 mg)
Rocuronium 1 mg/kg (max 100 mg)
+/- Fentanyl 1-2 microgram/kg (max 200 microgram)
Severe sepsis/shock: CAUTION risk of cardiac arrest & use reduced doses of any induction agent
GOAL = REVERSE SHOCK
Maintain or restore airway, oxygenation & CO2 clearance
Restore and maintain normal perfusion:
• No difference in central and peripheral pulse quality
• Heart rate and BP within normal limits for age
• Central CRT ≤ 2 seconds
Normal mental status (unless intubated and sedated)
Urine output > 0.5—1mL/kg/hour
Serum lactate < 2 mmol/L
Normal serum glucose (discuss with NWTS if > 10 mmol/L)
Systolic BP 18 Normal Moderate Severe Diastolic BP Target mean BP
37—44 weeks (neonate) 60-80 50-59 < 50 35-53 40-45
< 4 months 60-80 50-59 < 50 37-56 45-50
4 m—2 yr 70-90 60-69 < 60 42-63 50-55
2—5 yr 90-129 80-89 < 80 46-72 55-60
5-12 yr 90-129 80-89 < 80 57-76 60
> 12 yr 110-130 91-100 ≤ 90 64-83 65
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Paediatric Sepsis Guideline Summary Guideline: Beyond the first hour until transfer
AIRWAY • Cuffed ETT is necessary to ventilate in presence of pulmonary oedema • Secure endotracheal tube appropriately for transfer (see NWTS guidelines) • Nasogastric tube placed to decompress the stomach • CXR to check position: ET tube tip at T2-T4 & above carina by 1 cm & NG tube in stomach • Include heat & moisture exchanger (HME) & end-tidal CO2 monitoring in circuit
BREATHING: monitor end-tidal CO2 & SpO2 continuously • Place on ventilator with age appropriate settings, aiming for tidal volume 5-8 mL/kg • Start with positive end expiratory pressure (PEEP) 5 cmH2O & titrate PEEP upwards to treat pulmonary
oedema or paeds ARDS (may need PEEP 10-15 cmH2O) • Tolerate permissive hypercapnia to pH 7.15 as long as haemodynamically stable and adequate SpO2 • Hypoxaemia associated paeds ARDS may need inhaled nitric oxide • Avoid using furosemide to treat pulmonary oedema in shock
CIRCULATION: monitor NIV BP min every 3-5 mins until stable • Ensure two good intravenous access (ideally including intra-osseous or central venous access)
• Intraosseous line (IO) can be used as central access: see NWTS guidelines how/where to insert
• Switch to IO access early if peripheral cannulation takes more than 2-3 minutes
• Start inotrope infusions via IO (or peripheral line if IO not possible), aim eventually via central line (CVL)
• Always include 3-way tap in inotrope line to enable infusions to be changed without interruption
• Site arterial line: secure & transduce (if femoral, site preferably on same side as CVL so that the other site is free for renal support catheter)
• Check position on CXR if an internal jugular multi-lumen central venous line is inserted
• Track response to treatment with regular blood gases including lactate
• Site urinary catheter
INVESTIGATIONS • Cultures: blood (peripheral + any indwelling lines), PCR (Meningococcal, Pneumococcal & Herpes Simplex
as appropriate), urine (with dipstick), stool (if indicated) • Sputum cultures for M, C & S; NPA for respiratory viral screen; COVID-19 swab or sputum; throat swab
(rapid Group A Strep testing) & ASO titre; Pertussis screen (if appropriate) • Full blood count, coagulation studies, group & save, urea & electrolytes including calcium & magnesium,
blood glucose, C-reactive protein, liver function tests. Blood ammonia if reduced level of consciousness • Arterial (or capillary) blood gas including lactate and intermittent central venous gas including ScvO2 • CSF cultures, including PCR & virology. CAUTION: do NOT do an LP if increased work of breathing,
unstable blood pressure or persistent tachycardia, altered neurology, coagulopathy or platelets < 50
DRUGS • Check all antimicrobials given within 1st hour of presentation & time documented • Maintenance fluids containing glucose to maintain normal blood glucose levels • Add dexamethasone if suspect meningitis in a child older than 3 months
COMMUNICATION • Maintain contact with NWTS for on-going advice • Parents: outline diagnosis, management and prognosis. Be honest. • Document: history, current management & response to interventions & all blood results • Copy current notes (& any relevant clinic letters), observation, blood results & drug charts for NWTS • Send X-rays or any other imaging via PACS to receiving hospital
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Paediatric Sepsis Guideline ANTIMICROBIALS 10,11, 16, 17
BROAD SPECTRUM ANTIMICROBIALS (AS PER LOCAL GUIDANCE) SHOULD BE ADMINISTERED WITHIN THE FIRST HOUR OF PRESENTATION OF SEPSIS (see BNFc for drug doses)
• Under 1 month old or 44 weeks post gestational age: cefoTAXime +/- amoxicillin (to cover Listeriosis)
• Over 1 month age: cefTRIAXone
• If history of cephalosporin anaphylaxis — use teicoplanin, ciprofloxacin and gentamicin
• Add clindamycin especially if toxic shock or necrotising fasciitis suspected (usually due to invasive Group A Strep. or Staph. Aureus) OR if refractory shock (BP not responding to volume, and requiring 2 or more inotropes)
• Add aciclovir if abnormal neurology or encephalopathy, coagulopathy, abnormal LFTs, hypoglycaemia, or contact history of Herpes simplex—all age groups
• Add macrolide (clarithromycin or erythromycin) if Mycoplasma or Pertussis suspected or suspected meningoencephalitis
• Discuss with surgeons and consider adding metronidazole if surgical cause suspected
• Immunosuppression/neutropenia (even in absence of haem/onc diagnosis) → follow regional febrile neutropenia guidelines
• Carriers of multi-resistant organisms— check previous sensitivities; follow local guidelines and discuss with local microbiology team
• If recently overseas or prolonged or multiple antibiotic exposure within 3 months consider adding vancomycin or teicoplanin
• Patients with permanent access devices in situ (e.g. VP shunt, Broviac or Hickman line, Portacath etc.) - follow local guidelines if available / add vancomycin or teicoplanin
• For patients with suspected Gram-negative sepsis (e.g. UTI, abdominal sepsis, Galactosaemia) add gentamicin (stat dose then check levels before next dose if evidence of renal impairment/AKI)
TRIGGERS FOR INTUBATION / ANAESTHETIC REVIEW
• Decreased consciousness level (i.e. GCS ≤ 8; AVPU ≤ P) OR fluctuating consciousness level
• Increasing respiratory failure, signs of exhaustion
• Impending cardiovascular collapse – e.g. persistent tachycardia despite appropriate fluid boluses, borderline/ low normal mean BP; low diastolic blood pressure
• Fluid refractory shock
• 40-60 mL/kg resuscitation fluid given within the first 1-2 hours without reversal of shock
• Increasing size of liver
• Requirement for inotrope/vasopressor infusions
See NWTS intubation guidelines for further details on intubation, ideal drugs and equipment
• Ensure both fluid bolus and vasoactive agent - syringe dilute adrenaline (resus dose i.e. 0.1 ml/kg of 1:10,000 made up to 10ml MAX: 1mg in 10ml i.e. neat) - are ready before induction drugs are given
WARNING: INDUCTION AGENTS
• Inhalational anaesthetics present a significant risk of cardiovascular depression and cardiac arrest. Only consider using if the risk of a difficult airway outweighs this.
• Thiopentone, propofol & benzodiazepines all carry a similar risk of significant cardiovascular depres-sion and cardiac arrest
• Avoid using etomidate as there is a significant risk of causing adrenal insufficiency
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Paediatric Sepsis Guideline FLUID BOLUSES
• Assess fluid responsiveness and look for signs of fluid overload after each bolus • Check for fluid responsiveness: assess the effect of sustained direct upwards (towards head)
pressure on the liver (hepato-jugular response) BP improves +/- pulse rate falls: patient still fluid responsive, therefore give more fluid BP does not improve or worsens (i.e. evidence of myocardial impairment) start an inotrope
• Check for signs of volume overload/cardiac failure: • Gallop rhythm • Hepatomegaly (new or worsening) • On examination of chest: evidence of pulmonary oedema (crepitations or crackles) • All above may be associated with or without hypotension.
• If any are present start inotropes/vasopressors • Aim for a serial reduction of lactate by 10% every hour or normalisation of lactate • Fluid bolus in mL/kg should be dosed as ideal body weight • Use balanced crystalloid e.g. Plasmalyte 148 or Hartmann’s solution (if available) instead of 0.9%
sodium chloride. N.B. 0.9% sodium chloride is associated with hyperchloraemic acidosis, AKI and higher mortality when compared to balanced crystalloids16.
• Albumin (4.5% human albumin solution) has not been shown to be a superior initial resuscitation fluid, but there is no definite negative impact or difference in outcomes15. Recommendation to use balanced crystalloids rather than albumin relates to cost and potential barriers to ready access of albumin compared to crystalloids.
• N.B. if fluid bolus is more than 60 mL/kg consider switching to 4.5% human albumin solution. • AVOID gelatin containing fluids (causes coagulopathy) or starches in acute resuscitation16 • High mixed venous oxygen saturation levels do not exclude fluid responsiveness in critically ill
septic patients16
BLOOD PRODUCTS16 • Packed cells (10-20 mL/kg) only if Hb < 70 g/L in haemodynamically stable patient. • Higher target threshold Hb 100 g/L haemodynamically unstable patient or severe hypoxaemia16
• Coagulopathy/Thrombocytopenia: Only consider treatment with 10-20 mL/kg Fresh Frozen Plasma (FFP) if active bleeding Low platelet counts in the absence of active bleeding should not be supplemented unless
< 20 x 109/L If bleeding or invasive procedures are planned, aim to keep platelets > 50 x 109/L Low fibrinogen (< 0.75g/L) is suggestive of DIC – consider giving 5-10 mL/kg Cryoprecipitate
CHOICE OF INOTROPE AND COLD/ WARM SHOCK • START an inotrope after 40-60 mL/kg fluid boluses if there is evidence shock has not reversed i.e.
persistent tachycardia, prolonged CRT, raised lactate (i.e. lactate ≥ 2 mmol/L), reduced urine out-put, poor peripheral perfusion (core: peripheral temperature difference; poor peripheral pulses)
• Start an inotrope earlier if evidence of cardiac dysfunction i.e. new or worsening hepatomegaly, pulmonary oedema (crepitations or crackles on chest examination) or gallop rhythm noted
• HYPOTENSION is a late sign and is not needed for diagnosis of sepsis or septic shock. If present, it confirms severe septic shock.
• START adrenaline (cold shock) or noradrenaline (warm shock) - see page 9. Only use dopamine if adrenaline or noradrenaline are not readily available.
• Use a peripheral inotrope whilst waiting for intra-osseous or central access – N.B. This is for short term use only and must be changed to intra-osseous or central access as soon as possible. See appendix for peripheral inotrope concentrations and rate calculations.
• Monitor carefully for signs of extravasation when using peripheral or intra-osseous access. • Maximum duration for peripheral inotropes is 12-24 hours. Regular inspection of PVL site must
occur at least every hour. N.B. Extra-vigilance must be taken after 6 hours for both adrenaline and noradrenaline infusions via PVL - it is important to switch to central line if still required between 12-24 hours.
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Paediatric Sepsis Guideline
Previously the paediatric Surviving Sepsis international guidelines recommended clinical assessment to differentiate “warm” versus “cold” shock. The 2020 update recommends moving away from this due to poor correlation of clinical assessment versus advanced monitoring. These categories are included for use in circumstances where advanced haemodynamic monitoring is not available.
• Vasopressin (vasopressin-receptor agonist) (vials may be labelled as: argipressin or vasopressin USP or pitressin = synthetic vasopressin) may be used if vasodilation and hypotension persists in spite of starting noradrenaline and adrenaline infusions OR the clinical team may decide not to start vasopressin and continue to titrate noradrenaline and adrenaline infusions according to response. N.B. In adults, renal replacement therapy was required less often in those treated with vasopressin. See Crashcall for dose
• Milrinone = inodilator (selective inhibitor of phosphodiesterase type 3). It improves cardiac output by inotropic effect (cAMP mediated) and may reduce afterload (by vasodilation). It also improves myocardial relaxation in diastole. Be aware that blood pressure may drop with milrinone (vasodilation) and further fluid bolus may be required or a reduced dose of milrinone infusion. Milrinone should be considered in those patients with evidence of persistent hypoperfusion and cardiac dysfunction despite other vasoactive agents. Cardiac dysfunction is defined as difference in oxygen saturation between arterial and mixed venous blood (AVO2) at least 30% or an increase in serum lactate more than 2 mmol/L. Do NOT give a loading dose of milrinone. Caution: up to 85% milrinone is excreted renally; use 50-75% normal dose if estimated GFR less than 50 mL/min/1.73 m2.See Crashcall for dose
• Hydrocortisone 1 mg/kg (max 100 mg): add if patient remains haemodynamically unstable on 2 inotropes OR in presence of hypoglycaemia. Ideally check blood cortisol level first (may be done on previously sent biochemistry sample).
CORRECT HYPOGLYCAEMIA & ELECTROLYTES • Hypoglycaemia: Glucose containing maintenance fluids must be initiated early in combination with 10%
glucose boluses to maintain blood glucose > 2.4 mmol/L • Treat Hypocalcaemia: 10% calcium gluconate bolus (see Crashcall) +/- infusion. N.B. If giving via PVL 10%
calcium gluconate must be diluted by 5 times (I.e. Dilute each 1mL of 10% solution with 4mL of diluent to give a final concentration of 0.045 mmol/mL).
• Aim to maintain ionised calcium > 1.1 mmol/L • Treat Hypomagnesaemia: use supplemental dose on Crashcall. N.B. this causes vasodilation and may
cause hypotension, so give slowly over 20 minutes with an additional fluid bolus if necessary • If giving via PVL dilute Magnesium Sulfate 50% by 5 times to a concentration of 0.4mmol/ml
SIGNS
COLD SHOCK WARM SHOCK
Capillary refill time >3 seconds
Reduced peripheral pulses
Cool & mottled extremities
Core/peripheral temperature gap >3°C
Narrow pulse pressure
Flash capillary refill time
Bounding peripheral pulses
Warm to edges with flushed appearance
Low diastolic
Wide pulse pressure
First line inotrope: ADRENALINE
Second line: Cold shock with low BP
Titrate Adrenaline + consider adding Noradrenaline
Consider Milrinone (inodilator) - d/w NWTS
Second line: Cold shock with normal/ high BP
Consider adding Milrinone (always d/w NWTS)
First line inotrope: NORADRENALINE
Second line: Warm shock with low BP
Titrate Noradrenaline + consider adding Adrenaline
May consider adding Vasopressin—d/w NWTS
May also consider adding Milrinone to ensure good cardiac output (always d/w NWTS)
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Paediatric Sepsis Guideline CORTICOSTEROIDS
• If meningitis suspected (& more than 3 months old), give dexamethasone 0.15 mg/kg/dose (max 10 mg/dose) IV 6 hourly (ideally within 6 hours but not more than 12 hours of starting antibiotics)
• If actual or suspected primary adrenal insufficiency (i.e. Hyponatremia with hyperkalemia) treat with sick day dose of hydrocortisone (20 mg/m2/DAY in 4 divided doses). Ideally check blood cortisol level first. N.B. Up to 25% children in septic shock may have adrenal insufficiency
BICARBONATE USE • Not recommended for treatment of hypoperfusion-induced lactic acidaemia & pH ≥ 7.15 • However, bicarbonate may be considered if pH < 7 despite continued fluid resuscitation and inotropes or
if known renal failure
EXTRA-CORPOREAL MEMBRANE OXYGENATION (ECMO) Consider referral to regional ECMO team on PICU at Alder Hey Children’s Hospital for children with sepsis induced paediatric acute respiratory distress syndrome and refractory hypoxia OR septic shock refractory to all other treatments.
DRUG DOSES Use www.crashcall.net for emergency drug doses and BNFc for all other doses. Always seek local microbiology advice – patient specific antimicrobials Antimicrobial Paediatric Guidelines: UK Paediatric Antibiotic Stewardship. http://www.uk-pas.co.uk
PROPHYLAXIS • Prophylaxis depends on the suspected (or confirmed) causative agent and level of exposure. The local
Public Health England health protection team will be able to give advice over the phone 24/7. • Should be arranged by local team for family and staff contacts after informing local Public Health England
team • Meningococcus: patient will also need prophylaxis unless treated with ceftriaxone • Consider prophylaxis for the team if PPE not utilised during resuscitation especially those involved in any
aerosol generating procedures if Meningococcus or Pertussis suspected. • Always check with local Public Health England health protection team for up-to-date guidance.
OUTCOMES FOR PAEDIATRIC SEPSIS
Outcomes are improved when best practice guidelines are followed6,9,10,11,.
Following factors are independently associated with increased mortality5,7,9: • Failure to be looked after by senior paediatrician & failure of sufficient supervision of junior staff • Persistent evidence of shock (2-fold increase in mortality per hour patient remains in shock) • Failure to administer adequate inotropes/vasopressors or resuscitation volume (even if inotropes/
vasopressors started) • Delays in administration of antibiotics5 (every hour’s delay increases mortality by around 7.6%) • Lack of guidelines for recognition and management of children with septic shock
Studies have shown improvements in mortality, length of hospital stay, development of new or progressive multiple organ dysfunction and duration of organ dysfunction when each of these factors are corrected.
Compliance is difficult and failure to meet Sepsis 6 is highlighted repeatedly in the literature for both paediatric and adult sepsis. Regular audit can improve adherence4 & by inference outcomes from sepsis.
AUDIT: NWTS uses the following criteria when reviewing management of sepsis: 1) High flow O2 commenced at time of referral 2) IV/IO access obtained at time of referral 3) Lactate measured on admission, and regularly during stabilisation 4) Antibiotics given in first hour; If HSV suspected, acyclovir given and HSV PCR taken 5) Adequate fluid resuscitation received; and inotropic support initiated when indicated 7) Dexamethasone given suspected bacterial meningitis 8) Time of admission and first contact with NWTS N.B. Failure to deliver antibiotics in the first hour is the most common failure in this pathway It would be achievable to repeatedly audit Sepsis 6 at DGH level. Regular plan-do-study-act cycles have been shown to improve adherence4 to guidelines
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Paediatric sepsis guideline Appendix 1
CALCULATION WORKSHEET: PERIPHERAL ADRENALINE OR
NORADRENALINE INFUSION
N.B. Crashcall amount for inotrope infusion is for CENTRAL use only
To make up a suitable concentration for a peripheral adrenaline or noradrenaline
infusion you will need:
500 mL bag of either 0.9% sodium chloride or 5% glucose
Adrenaline or noradrenaline 1:1,000 (1mg/mL) vials
To calculate the amount of adrenaline/noradrenaline required to add to 500 mL bag Amount (mg) = 0.3 mg x weight in kg
AMOUNT REQUIRED = 0.3 x _____________(kg) = _________________ mg
N.B. ADRENALINE MAXIMUM concentration = 16 mg in 500 mL
N.B. NORADRENALINE Maximum concentration = 8 mg in 500 mL
It is recommended that an inotrope infusion is always delivered via a dedicated
peripheral line and that the line includes a 3-way tap
CALCULATION EXAMPLES FOR PERIPHERAL ADRENALINE / NORADRENALINE INFUSION
EXAMPLE 1: PATIENT WT = 14 KG
Amount adrenaline or noradrenaline required = 0.3 mg x 14 kg = 4.2 mg
Using adrenaline or noradrenaline vials 1:1,000 (1 mg/mL) volume drug required = 4.2 mL
Add adrenaline or noradrenaline 4.2 mL to 500 mL 5% glucose
EXAMPLE 2: PATIENT WT = 58 KG
Amount ADRenaline or NORadrenaline required = 0.3 mg x 58 kg = 17.4 mg
BUT ADRenaline MAX concentration = 16 mg in 500 mL
NORadrenaline MAX concentration = 8 mg in 500 mL
Using ADRenaline 1:1,000 (1 mg/mL) volume drug required = 16 mL
Using NORadrenaline 1:1,000 (1 mg/mL) volume drug = 8 mL
Add either ADRenaline 16 mL or NORadrenaline 8 mL to 500 mL bag 0.9% sodium chloride
VOLUME ADRENALINE OR NORADRENALINE INJECTION REQUIRED
using adrenaline or noradrenaline 1:1,000 (1 mg/mL)
Amount in mg = volume required (mL)
1
2
3
12
Infusion Rate Calculations Peripheral ADRenaline or NORadrenaline
Inotrope: microgram/kg/min
What does 1 mL/hr of infusion equal in
microgram/kg/min?
Step 1: Convert total amount of drug in mg added
to the bag to micrograms by multiplying by 1,000
Step 2: Divide this by patient’s weight (in kg)
Step 3: Divide this number by 60 (mins)
Step 4: Divide this number by volume in bag (in mL)
Step 5: Multiply this by the rate of the infusion (mL/hr)
How do I calculate the infusion rate in mL/hr
to deliver specific dose microgram/kg/min
Step 2: Multiply the specified dose
(in microgram) by the patient’s weight (kg)
Step 3: Multiply this number by 60 (mins)
Step 4: Divide this number by the drug amount in
micrograms in the bag.
Step 5: Multiply this by total volume in bag (in mL)
This calculated number will be the
rate required in mL/hr to provide
an infusion at a rate of
specific dose micrograms/kg/min EXAMPLE: DOSE FROM RATE
Patient wt = 16 kg
To calculate peripheral adrenaline infusion dose
delivered
Dose = 0.3 mg x 16 kg = 4.8 mg
4.8 ml added to 500 mL bag 5% glucose
Rate running = 12 mL / hr
Step 1: Total dose = 4.8 mg x 1000 = 4,800 micrograms
Step 2: 4,800 micrograms ÷ 16 kg = 300 micrograms / kg
Step 3: 300 micrograms / kg ÷ 60 mins = 5
Step 4: 5 ÷ 500 mL = 0.01
Step 5: 0.01 x 12 mL = 0.12 micrograms / kg /min
EXAMPLE: RATE FROM DOSE REQUIRED
Patient wt = 28 kg
To calculate infusion rate: peripheral noradrenaline
Dose = 0.3 mg x 28 = 8.4 mg (N.B. MAX noradrenaline conc = 8mg/500mL)
Dose required = 0.2 micrograms / kg /min
Step 1: 8 mg x 1000 = 8,000 micrograms
Step 2: 0.2 micrograms x 28 kg = 5.6 micrograms
Step 3: 5.6 micrograms x 60 mins = 336 micrograms
Step 4: 336 micrograms ÷ 8,000 micrograms = 0.042
Step 5: 0.042 x 500 = 21 mL/ hr
Step 1: Convert total amount of drug in mg added to
the bag to microgram by multiplying by 1,000
Paediatric Sepsis Guideline
This result gives the dose in
micrograms/kg/min delivered
13
Paediatric Sepsis Guideline
ADRENALINE infusion for PERIPHERAL administration
Amount ADRenaline to add to 500 mL bag 0.9% sodium chloride / 5% glucose = 0.3 mg x weight (kg) MAXIMUM concentration = 16 mg in 500 mL. (Patients >100kg, dose at 100kg)
Dose: 0.05-1.5 micrograms/kg/min via peripheral line (for rate ml/hr see table below) If starting an adrenaline infusion always discuss with nwts team. Obtain further nwts advice if >1.5mcg/
kg/min required. Large volumes require nwts review within 1 hour of commencing.
Weight
(kg)
Amount (mg)
to add to
500 ml bag
RA
TE (ml/h
r) =
0.0
5 m
icro
gr
am
/
kg
/min
RA
TE (ml/h
r) =
0.1
micr
og
ra
m/
kg
/min
RA
TE (ml/h
r) =
0.2
micr
og
ra
m/
kg
/min
RA
TE (ml/h
r) =
0.5
micr
og
ra
m/
kg
/min
RA
TE (ml/h
r) =
1 m
icro
gr
am
/kg
/
min
RA
TE (ml/h
r) =
1.5
micr
og
ra
m/
kg
/min
3 kg 0.9 mg 5 mL/hr 10 mL/hr 20 mL/hr 50 mL/hr 100 mL/hr 150 mL/hr
3.5 1 mg 5 10 20 50 100 150
4 1.2 mg 5 10 20 50 100 150
5 1.5 mg 5 10 20 50 100 150
6 1.8 mg 5 10 20 50 100 150
7 2.1 mg 5 10 20 50 100 150
8 2.4 mg 5 10 20 50 100 150
9 2.7 mg 5 10 20 50 100 150
10 3 mg 5 10 20 50 100 150
12 3.6 mg 5 10 20 50 100 150
15 4.5 mg 5 10 20 50 100 150
17 5.1 mg 5 10 20 50 100 150
20 6 mg 5 10 20 50 100 150
25 7.5 mg 5 10 20 50 100 150
30 9 mg 5 10 20 50 100 150
35 10.5 mg 5 10 20 50 100 150
40 12 mg 5 10 20 50 100 150
45 13.5 mg 5 10 20 50 100 150
50 15 mg 5 10 20 50 100 150
55 16 mg 5.1 10.3 20.6 52 103 155
60 16 mg 5.6 11.2 22.5 56 113 169
65 16 mg 6.1 12.2 24.3 61 122 183
70 16 mg 6.6 13 26 66 131 197
75 16 mg 7 14 28 70 140 211
80 16 mg 7.5 15 30 75 150 225
85 16 mg 8 15.9 32 80 159 239
90 16 mg 8.4 16.9 34 84 169 253
95 16 mg 8.9 17.8 36 89 178 267
100 16 mg 9.4 18.8 37.5 94 188 281
14
Paediatric Sepsis Guideline NORADRENALINE infusion for PERIPHERAL administration
Amount NORadrenaline to add to 500 mL bag 0.9% sodium chloride / 5% glucose = 0.3 mg x weight (kg) MAXIMUM concentration = 8 mg in 500 mL. (Patients >100kg dose at 100kg)
Dose: 0.05-1.5 micrograms/kg/min via peripheral line (for rate ml/hr see table below) Discuss with nwts team if starting noradrenaline infusion. Obtain further nwts advice if >1.5mcg/kg/min
required. Large volumes require nwts review within 1 hour of commencing.
Weight
(kg)
Amount (mg)
to add to 500
ml bag
RA
TE (ml/h
r) =
0.0
5 m
icro
gr
am
/
kg
/min
RA
TE (ml/h
r) =
0.1
micr
og
ra
m/
kg
/min
RA
TE (ml/h
r) =
0.2
micr
og
ra
m/
kg
/min
RA
TE (ml/h
r) =
0.5
micr
og
ra
m/
kg
/min
RA
TE (ml/h
r) =
1 m
icro
gr
am
/kg
/
min
RA
TE (ml/h
r) =
1.5
micr
og
ra
m/
kg
/min
3 kg 0.9 mg 5 mL/hr 10 mL/hr 20 mL/hr 50 mL/hr 100 mL/hr 150mL/hr
3.5 1 mg 5 10 20 50 100 150
4 1.2 mg 5 10 20 50 100 150
5 1.5 mg 5 10 20 50 100 150
6 1.8 mg 5 10 20 50 100 150
7 2.1 mg 5 10 20 50 100 150
8 2.4 mg 5 10 20 50 100 150
9 2.7 mg 5 10 20 50 100 150
10 3 mg 5 10 20 50 100 150
12 3.6 mg 5 10 20 50 100 150
15 4.5 mg 5 10 20 50 100 150
17 5.1 mg 5 10 20 50 100 150
20 6 mg 5 10 20 50 100 150
25 7.5 mg 5 10 20 50 100 150
27 8mg 5.1 10.1 20.3 51 101 152
30 8mg 5.6 11.3 22.5 56 113 169
35 8mg 6.6 13.1 26.3 66 131 199
40 8mg 7.5 15 30 75 150 225
45 8mg 8.4 16.9 33.8 84 169 253
50 8mg 9.4 18.8 37.5 94 188 281
55 8mg 10.3 20.6 41.3 103 206 309
60 8mg 11.3 22.5 45 113 225 338
65 8mg 12.2 24.4 48.8 122 244 366
70 8mg 13.1 26.3 53 131 263 394
75 8mg 14.1 28.1 56 141 281 422
80 8mg 15 30 60 150 300 450
85 8mg 15.9 31.9 64 159 319 478
90 8mg 16.9 33.8 68 169 338 506
95 8mg 17.8 35.6 71 178 356 534
100 8mg 18.8 37.5 75 188 375 563
15
Paediatric Sepsis Guideline
CALCULATION WORKSHEET: PERIPHERAL DOPAMINE INFUSION
N.B. Crashcall amount for dopamine infusion is for CENTRAL use only
To make up a suitable concentration for a peripheral dopamine infusion you will need:
50 ml of either 0.9% sodium chloride or 5% glucose
Dopamine 200 mg/5mL (i.e. 40 mg/mL) vial
To calculate the amount of dopamine required make up to 50 mL infusion
Amount (mg) = 3 mg x weight in kg
AMOUNT DOPAMINE REQUIRED = 3 x _____________(kg) = _________________ mg
N.B. MAXIMUM concentration = 160 mg in 50 mL
It is recommended that an inotrope infusion is always delivered via a dedicated
peripheral line and that the line includes a 3-way tap
CALCULATION EXAMPLES FOR PERIPHERAL DOPAMINE INFUSION
EXAMPLE 1: PATIENT WT = 16 KG
Amount dopamine required = 3 mg x 16 kg = 48 mg
Using dopamine 200 mg/5 mL vial (40 mg/mL) drug volume required = 48 mg ÷ 40mg = 1.2 mL
To make up to total 50 mL add dopamine 1.2 mL to 48.8 mL 5% glucose
EXAMPLE 2: PATIENT WT = 56 KG
Amount dopamine required = 3 mg x 56 kg = 168 mg
BUT MAX concentration = 160 mg in 50 mL
Using dopamine 200 mg/5 mL vial (i.e. 40 mg/mL) volume drug required for 160 mg = 4 mL
IE To make up to total 50 mL add dopamine 4 mL to 46 mL 5% glucose
VOLUME DOPAMINE INJECTION REQUIRED using dopamine 200 mg/5 mL (40 mg/mL)
Volume = amount in mg ÷ drug concentration mg/mL
1
2
3
16
Infusion Rate Calculations Peripheral Dopamine Inotrope:
micrograms/kg/min
What does 1mL/hr of infusion equal in micrograms/kg/min?
Step 1: Convert total amount of drug in mg added
to the bag to micrograms by multiplying by 1,000
Step 2: Divide this by patient’s weight (kg)
Step 3: Divide this number by 60 (mins)
Step 4: Divide this number by volume (mL) in syringe
Step 5: Multiply this by the rate of the infusion (mL/hr)
How do I calculate the infusion rate in mL/hr
to deliver specific dose micrograms/kg/min
Step 2: Multiply the specified dose (in micrograms) by
the patient’s weight (kg)
Step 3: Multiply this number by 60 (mins)
Step 4: Divide this number by the amount of drug in
micrograms in the syringe.
Step 5: Multiply this by total volume in syringe (mL)
This calculated number will be the rate
required in mL/hr to provide an infusion at a
rate of specific dose micrograms/kg/min
EXAMPLE: DOSE FROM RATE
Patient wt = 16 kg
To calculate peripheral dopamine infusion dose delivered
Dose = 3 mg x 16 = 48 mg
Add 1.2 ml dopamine (40 mg/mL) to 48.8 mL 5% glucose
Rate running = 4.6 mL / hr
Step 1: Total dose = 48mg x 1000 = 48,000 micrograms
Step 2: 48000 micrograms ÷ 16kg = 3000 micrograms
Step 3: 3000 micrograms ÷ 60 mins = 50 micrograms / min
Step 4: 50micrograms ÷ 50 mL = 1
Step 5: 1 x 4.6 mL = 4.6 micrograms / kg /min
EXAMPLE: RATE FROM DOSE REQUIRED
Patient wt = 38 kg
Calculating infusion rate (mL/hr) for peripheral dopamine
Dose = 3 mg x 38 kg = 114 mg
Dose required = 10 micrograms / kg /min
Step 1: 114 mg x 1000 = 114,000 micrograms
Step 2: 10 micrograms x 38 kg = 380 micrograms
Step 3: 380 micrograms x 60 mins = 22,800 micrograms / hr
Step 4: 22,800 microgram/hr ÷ 114,000 micrograms = 0.2
Step 5: 0.2 x 50 mL = 10 mL / hr
Step 1: Convert total amount of drug in mg added to
the bag to micrograms by multiplying by 1,000
Paediatric Sepsis Guideline
This result gives the dose in micrograms/kg/min being delivered
17
Paediatric Sepsis Guideline
DOPAMINE infusion for PERIPHERAL administration:
Amount of DOPAMINE to make up to 50 mL syringe 0.9% sodium chloride or 5% glucose = 3 mg x weight (kg)
N.B. MAXIMUM concentration = 160 mg made up to 50 mL
Dose: 5-10 micrograms/kg/min via peripheral line (for rate ml/hr see chart below)
Weight (kg) Amount (mg) made
up to 50 ml
RATE (mL/hr) =
5 microgram/
kg/min
RATE (ml/hr) =
7.5 microgram/
kg/min
RATE (ml/hr) =
10 microgram/
kg/min
3 kg 9 mg 5 mL/hr 7.5 mL/hr 10 mL/hr
3.5 10.5 mg 5 7.5 10
4 12 mg 5 7.5 10
5 15 mg 5 7.5 10
6 18 mg 5 7.5 10
7 21 mg 5 7.5 10
8 24 mg 5 7.5 10
9 27 mg 5 7.5 10
10 30 mg 5 7.5 10
12 36 mg 5 7.5 10
15 45 mg 5 7.5 10
17 51 mg 5 7.5 10
20 60 mg 5 7.5 10
25 75 mg 5 7.5 10
30 90 mg 5 7.5 10
35 105 mg 5 7.5 10
40 120 mg 5 7.5 10
45 135 mg 5 7.5 10
50 150 mg 5 7.5 10
55 160 mg 5.2 7.8 10.3
60 160 mg 5.6 8.4 11.3
65 160 mg 6 9.1 12.2
70 160 mg 6.6 9.8 13.1
75 160 mg 7 10.5 14
80 160 mg 7.5 11.3 15
85 160 mg 8 12 16
90 160 mg 8.4 12.7 16.9
95 160 mg 8.9 13.4 17.8
100 160 mg 9.4 14 18.8
18
Paediatric Sepsis Guideline
Milrinone infusion for peripheral administration:
Weight (kg) Amount mg in 50 ml Rate (mL/hr) = 0.5 microgram/kg/min
< 5 kg 5 mg Wt (kg) x 0.3
> 5 kg 10 mg Wt (kg) x 0.15
Weight
(kg)
Amount (mg)
made up to 50 ml
RATE (mL/hr) = 0.25
microgram/kg/min
RATE (ml/hr) = 0.5
microgram/kg/min
RATE (ml/hr) = 0.75
microgram/kg/min
3 kg 5 mg 0.45 0.9 1.35
3.5 5 O.5 1 1.5
4 5 0.6 1.2 1.8
5 10 0.4 0.75 1.1
6 10 0.45 0.9 1.35
7 10 0.5 1 1.6
8 10 0.6 1.2 1.8
9 10 0.7 1.4 2
10 10 0.75 1.5 2.25
12 10 0.9 1.8 2.7
15 10 1.1 2.25 3.4
17 10 1.3 2.6 3.8
20 10 1.5 3 4.5
25 10 1.9 3.8 5.6
30 10 2.3 4.5 6.8
35 10 2.6 5.3 7.9
40 10 3 6 9
45 10 3.4 6.8 10.1
50 10 3.8 7.5 11.3
55 10 4.1 8.3 12.4
60 10 4.5 9 13.5
65 10 4.9 9.8 14.6
70 10 5.3 10.5 15.8
75 10 5.6 11.3 16.9
80 10 6 12 18
85 10 6.4 12.8 19.1
90 10 6.8 13.5 20.3
95 10 7.1 14.3 21.4
100 10 7.5 15 22.5
19
Paediatric Sepsis Guideline Appendix 2
Intravenous infusions: practical tips • Ideally aim for 2 good peripheral venous lines (PVL) or one PVL plus one intra-osseous line.
• Using the 2 intravenous / intra-osseous lines it is possible to give all infusions and bolus drugs required safely, see example below.
Peripheral venous line:
sedation + maintenance + bolus
Attach triple tail extension
Lumen 1: morphine or fentanyl infusion
Lumen 2: midazolam
Lumen 3 (with 3 way tap): maintenance
fluids plus bolus drugs e.g. rocuronium
2nd Peripheral Venous Line OR intraosseous line
Inotrope set-up
Attach a triple tail extension with 3-way tap on each lumen
Lumen 1: Adrenaline
Lumen 2: Noradrenaline
Lumen 3: Vasopressin or Milrinone
This enables inotrope infusions to be changed safely using
the piggyback technique ie avoiding any interruption in
infusions.
Remember that the preferred route for inotropes is central ie via intraosseous or central line
ONLY deliver inotropes via peripheral venous lines if there are no other options
never delay starting inotropes when indicated
20
Paediatric Sepsis Guideline
References 1Glodstein B, Giroir B, Randolph A et al. International pediatric sepsis consensus conference: Definitions for sepsis and organ dysfunction in pediatrics. Pediatr Crit Care Med. 2005; 6(1):2-8
2Watson RS, Carcillo JA, Linde-Zwirble WT, Clermont G, Lidicker J, Angus DC. The epidemiology of severe sepsis in children in the United States. Am J Respir Crit Care Med. 2003; 167:695-701
3Schlapbach LJ,MacLaren G, Festa M, et al. Prediction of pediatric sepsis mortality within 1 h of intensive care admission. Intensive Care Med. 2017 Aug;43(8):1085-1096.
4 Paul R, Melendez E, Stack A, Capraro A, Monuteaux M, Neuman MI. Improving adherence to PALS septic shock guidelines. Pediatrics. 2014 May;133(5):e1358-66.
5 Weiss SL, Fitzgerald JC, Balamuth F et al. Delayed antimicrobial therapy increases mortality and organ dysfunction duration in pediatric sepsis. Crit Care Med. 2014 Nov;42(11):2409-17
6Brierly J, Carcillo JA, Choong K, et al. Clinical practice parameters for haemodynamic support of pediatic and neonatal septic shock:2007 update from the American College of Critical Care Medicine. Crit Care Med. 2009;37(2):666-688
7Han YY, Carcillo JA, Dragotta MA, Bills DM, Watson RS, Westerman ME, Orr RA. Early reversal of pediatric-neonatal septic shock by community physicians is associated with improved outcome. Pediatrics. 2003;112:793-799
8Ninis N, Phillips C, Bailey L, et al. The role of healthcare delivery in the outcome of meningococcal disease in children: case-control study of fatal and non-fatal cases. BMJ. 2005;330:1475-1481
9Inwald DP, Tasker RC, Peters MJ, et al. Emergency management of children with severe sepsis in the United Kingdom: the results of the Paediatric Intensive Care Society sepsis audit. Arch Dis Child. 2009;94:348-353
10National Institute for Health and Clinical Excellence (NICE) (2019) Fever in under 5s: assessment and
initial management (CG143) London: National Institute for Health and Care Excellence
11NICE clinical guideline 102: Meningitis (bacterial) and meningococcal septicaemia in under 16s: recognition, diagno-
sis and management. Last updated: 01 February 2015
12 Masarwa R, Paret G, Perlman A, Reif, S ,Raccah BH, Matok I. Role of vasopressin and terlipressin in refractory shock compared to conventional therapy in the neonatal and pediatric population: a systematic review, meta-analysis, and trial sequential analysis. Crit Care. 2017; 21: 1.
13 Scott HF, Brou L, Deakyne SJ, Fairclough DL, Kempe A, Bajaj L. Lactate Clearance and Normalization and Prolonged Organ Dysfunction in Pediatric Sepsis. J Pediatr. 2016 Mar;170:149-55
14 Jiang L, Jiang S, Zhang M, et al. Albumin versus other fluids for fluid resuscitation in patients with sepsis: a meta-analysis. PLoS One. 2014;9(12):1–21.
15 Velissaris D, Pierrakos C, Scolletta S, De Backer D, Vincent JL. High mixed venous oxygen saturation levels do not exclude fluid responsiveness in critically ill septic patients. Crit Care. 2011;15(4
16 Weiss LS, Peters MJ, Alhazzani W et al. Surviving Sepsis Campaign International Guidelines for the Management of Septic Shock and Sepsis-Associated Organ Dysfunction in Children. Pediatr Crit Care Med.2020: 21 (2):e52-e106.
17 UK Paediatric Antibiotic Stewardship—website: http://www.uk-pas.co.uk/
18MANCHEWS2— RMCH paediatric early warning score
19Sepsis six (paediatrics)
21
Appendix 3: ratification pathway for NWTS / Network guidelines
Paediatric Sepsis Guideline
Ratification of Guidelines with Host Organisation (MFT)
Completion and sign off of equality, diversity and
human risks impact assessment, and EqIA number
added to document (via [email protected])
Comments received and reviewed. Log kept of all
comments received and responses sent.
Sent out for comments to all appropriate paediatric
network(s) clinical links / NWTS representatives
Medicines not involved
Sign off by
Network/NWTS
Lead Clinician
Approval by NW & N.
Wales Paediatric Critical
Care Network Medicines involved
Final review by RMCH
Pharmacist
Review comments and
resubmit
Not Agreed by PMMC
Review comments and
resubmit
Not ratified
Send to PMMC Committee.
Meetings held 1st Wednesday
of each month.
Submit 2 weeks prior to
Robert Dugdale
RMCH Policies and Guidelines
Group
Weekly meetings: Friday
Submit 1 week prior to
RMCH.policiesandguidelines@mft.
nhs.uk
Addition of logos and
disclaimer statement
Addition of RMCH/MCS
document control and
front page
Agreed by PMMC
Released for adoption by trusts
Follow reviews / update process
Involvement of MDT
teams
Note: Parallel ratification process
with AHFT (see below)
Ratified
22
Appendix 2 continued
Paediatric Sepsis Guideline
Ratification of Guidelines with Alder Hey
Completion and sign off of equality, diversity and
human risks impact assessment, and EqIA number
added to document (via [email protected])
Comments received and reviewed. Log kept of all
comments received and responses sent.
Sent out for comments to all paediatric network(s)
clinical links / NWTS representatives
Sign off by
Network/NWTS Lead Clinician
Approval by NW & N.
Wales Paediatric Critical
Care Network
Review comments and resubmit
Not ratified
Send to CDEG (Clinical Development &
Evaluation Group which includes clinical
pharmacist) at Alder Hey
Meetings held 3rd Friday of every
month, papers submitted by 1st Friday of
the month via Liz McCann
Addition of logos and
disclaimer statement
Addition of document
control and front page
Ratified
Released for adoption by trusts
Follow reviews / update process
Involvement of MDT
teams
23
Paediatric Sepsis Guideline
Resources
www.Crashcall.net - for intubation drugs / sedation regime UK Paediatric Antibiotic Stewardship—website: http://www.uk-pas.co.uk/ BNFc for drug doses Contact numbers: North West (England) & North Wales Paediatric Transport Service (NWTS) • NWTS REFERRAL LINE: 08000 84 83 82 • NWTS Office: 01925 853 550 Regional Paediatric Intensive Care Unit Alder Hey Children’s Hospital : 0151 252 5241 Regional Paediatric Intensive Care Unit Royal Manchester Children’s Hospital : 0161 701 8000 Guideline authors (version 2): Originated By: Kate Parkins Designation: PICM consultant, North West (England) & North Wales Paediatric Transport Service (NWTS) Co-Authors: Praveen Kurup, PCCM clinical Fellow, NWTS & PIC RMCH Nisha Jacob, Anaesthetic senior clinical fellow, NWTS & AHCH Lisa Pritchard, PICM consultant, NWTS & UHNM Amicia Davey, PICM Transport Nurse, NWTS Nicola Longden, Clinical Nurse Specialist Consulted parties: North West (England) & North Wales Paediatric Transport Service (NWTS) North West (England) and North Wales Paediatric Critical Care Network PICU, Royal Manchester Children’s Hospital PICU, Alder Hey Children’s Hospital
Next Review Due: November 2024
NWTS Guideline contact point: [email protected] or [email protected]
For the most up to date version of this guideline visit: www.nwts.nhs.uk
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